CGDB Gene Information

Tag Content
CGDB ID CGD-XeT-058979
Ensembl Accession ENSXETP00000018104.4
Protein Name per2
Ensembl Information ENSXETG00000008256; ENSXETT00000018104
Organism Xenopus tropicalis
NCBI Taxa ID 8364
Circadian Information
Phase Amplitude
(FOLD)		 Tissue/Cell Evidence
Peak Trough External
condition
ZT 12 ZT 0 LD >10 Predicted from orthologs Q65ZG8
ZT 6 ZT 18 LD 5 skeletal muscle Predicted from orthologs F6ZZH0
ZT 21 ZT 9 LD 6 duodenum Predicted from orthologs Q8QGQ8
ZT 2 ZT 18 LD 3.17 embryos Predicted from orthologs Q8QGQ8
ZT 6 ZT 18 LD 8 embryos Predicted from orthologs Q8QGQ8
CT 12 CT 0 DD1 3 granulosa cells Predicted from orthologs Q8QGQ8
ZT 3 ZT 18 LD 84.29 pineal glands Predicted from orthologs Q8QGQ8
ZT 23 ZT 11 LD 2.25 spleen Predicted from orthologs Q8QGQ8
CT 4 CT 12 DD2 27 aortic smooth muscle cells Predicted from orthologs O15055
ZT 4 ZT 21 LD 5 human HaCaT keratinocytes Predicted from orthologs O15055
ZT 1 ZT 19 LD 2.67 human hair follicle cells Predicted from orthologs O15055
CT 12 CT 0 LL1 3.43 oral mucosa Predicted from orthologs O15055
CT 3 CT 15 DD2 5 U2OS cells Predicted from orthologs O15055
ZT 16 ZT 4 LD 9 abdominal adipose tissue Predicted from orthologs Q9Z301
ZT 16 ZT 4 LD 2 anterior cingulate Predicted from orthologs Q9Z301
ZT 14 ZT 2 LD 2.05 area postrema Predicted from orthologs Q9Z301
ZT 18 ZT 2 LD 6.38 AV3V Predicted from orthologs Q9Z301
ZT 16 ZT 4 LD 14 basolateral nucleus of the amygdala Predicted from orthologs Q9Z301
ZT 10 ZT 6 LD 2 caudal ventrolateral medulla Predicted from orthologs Q9Z301
CT 12 CT 8 DD17 4.35 colon Predicted from orthologs Q9Z301
ZT 14 ZT 2 LD 3.29 dorsal vagal motor nucleus Predicted from orthologs Q9Z301
ZT 2 ZT 14 LD 1.8 dorsomedial nucleus Predicted from orthologs Q9Z301
ZT 4 ZT 16 LD 5.5 entral nucleus of the amygdala Predicted from orthologs Q9Z301
ZT 14 ZT 2 LD 5.7 heart Predicted from orthologs Q9Z301
ZT 4 ZT 16 LD 15 hippocampus Predicted from orthologs Q9Z301
ZT 16 ZT 3 LD 57 intestinal jejunal mucosa Predicted from orthologs Q9Z301
CT 16 CT 4 DD17 5 liver Predicted from orthologs Q9Z301
ZT 14 ZT 2 LD 8.5 liver Predicted from orthologs Q9Z301
ZT 16 ZT 4 LD >5 mammary gland (pubescent female F344 rats) Predicted from orthologs Q9Z301
ZT 4 ZT 16 LD 8 nucleus accumbens core Predicted from orthologs Q9Z301
ZT 0 ZT 12 LD 7 nucleus accumbens shell Predicted from orthologs Q9Z301
ZT 14 ZT 6 LD 2.07 nucleus ambiguus Predicted from orthologs Q9Z301
ZT 14 ZT 6 LD 2.63 paraventricular nucleus Predicted from orthologs Q9Z301
ZT 8 ZT 20 LD 4 prefrontal cortex Predicted from orthologs Q9Z301
ZT 12 ZT 8 LD 2.5 PVN Predicted from orthologs Q9Z301
ZT 16 ZT 4 LD 2 rostral agranular insula Predicted from orthologs Q9Z301
ZT 12 ZT 20 LD 3.92 SCN Predicted from orthologs Q9Z301
ZT 8 ZT 20 LD 2 SCN Predicted from orthologs Q9Z301
ZT 12 ZT 20 LD 2 SCN Predicted from orthologs Q9Z301
Descriptionperiod circadian clock 2 [Source:Xenbase;Acc:XB-GENE-486306](View all)
Protein Sequence
(Fasta)		 MPTQCRELQT DCFSLQGHNS STQHGHFGDP SLQSENPLMD KSCLEMTSAH EQSEPARHNA 60
IFEMPSIDMD ISVLFDPNDL SSKEIQESQR TNPNSVQSVD SLPQVRSPSI GTFASGQIPK 120
LIQIEKPEEL GDQRITLQED VEMSNDSMSN EVTESDENGK ELAEKSCSDI CSPSCSSNAF 180
SLMMADTEHN PSTSGYSSEQ PDKEKTQKDL LKMLKELRSH LPPDKRNRSK SGTAAALKYA 240
LHCIQQVQAN EEYYQLLMVN GEQPCGLEAS CYSVQEIENI TSEYTRNNTD MFAVAVSLVT 300
GRIVYISEQA SVVLRCGPDM FSQIRFVELI APQDVNVFYS STTPYRLPSW NICCGADSSY 360
VDSMEEKSFY CRVSCGRESR KEVVYHPFRM TPYLIWVKTE ETAKEQLCCV LFAERVHSGY 420
EAPRIPADKR IFTTTHTPSC LFQDIDERAV PLLGYLPQDL IGSSIMLHLH PKDRPLMLAV 480
HKKILQYGGQ PFDFSPIRFC ARNGEYITID TSWSSFINPW SRKVSFIIGR HKVRMGPVNE 540
DVFAAPPHTE DKSLHPGIQE LTEQIYHLLM QPVHNSNSSG YGSLGSNGSH ENPMSAASSS 600
DSNGNANEDI KDKNVACQEL LGEEHSTAFQ DKEKQKLTKN VLIDNSPSTR DYSKDVIKAS 660
PDSGPCPIQS EDLPAKQHPY SYQQISCLDS VIRYLESCGV PTSSKSKWDS SGYKETSSSH 720
TDHNPPQHQK AKLNKVKSYL LSKQHIRAYL LMDYPIHVLT LCYNYCDRWG IMKNAKFCGK 780
CFMLPPAAPP KTIQLELSTI STCVETQAEN YDLLQSVPCY QCAGRHGVSL CVHTAQATAC 840
VTFCSQVRYK ASFIHLKEVS LLPESEMEDC PSALGDPTPV SASVAEKEPY RQMGLTKEVL 900
AAHTQKEEND FLTGFMDIKK LSAFQARCNS YLQERPGAPR TRRAQGPDTS WKRTGKTRKP 960
KTKRVRPESW DSSSSGAHDA PRHPLPGLNT TAWSQSDASH ASYPPLPYPV LPAYPLPVFP 1020
SPQIPVPNET AQIPSANAST PQPFPAPLLP PMVALVLPNY MYPASLPTTL YPGPPSQPAF 1080
PAQPNSYLPQ STFPAAQPTF PVPGPAFSLQ QPNFTVAQPV FPTPQNALSV LPPLYTPQPV 1140
QNPFPAQPVS FPIPAPTLKT KEGISRSSTP QEPPSPPLFQ SRCSSPLQLN LLQLEETQKV 1200
DHPEGNSGCT DKGGGNSSVL VKPSDDSQLH LSRAASPVDA PNSDAMSTCS DLMDLLLREN 1260
ASSGTCSASS AISDSMTSGS HGNGTSGSQT GSSLTSRSSK YFGSVDSSEN KEHGGQETGS 1320
SRSKSIMKYV LQDPVWLLMA NADENVMMTY QIPKRDIKAV LGEDRKKLKS LQKMQPRFTE 1380
EQKKELEETH TWMHKGGLPR VMEVTDCVYC RNRGPEYGEA IQALELSGIM ESCD 1434
Nucleotide Sequence
(Fasta)		 ATGCCCACTC AGTGCAGGGA ACTGCAGACA GATTGTTTTT CTCTGCAGGG CCATAATTCA 60
TCCACTCAAC ATGGACATTT TGGAGATCCC TCTCTGCAGA GTGAAAATCC ATTGATGGAT 120
AAGTCTTGCT TGGAAATGAC TTCTGCTCAT GAGCAAAGTG AACCAGCAAG ACATAATGCT 180
ATCTTCGAGA TGCCATCTAT TGATATGGAC ATCAGTGTTC TCTTTGATCC AAATGACCTC 240
TCATCGAAGG AGATTCAGGA AAGCCAGAGA ACTAATCCCA ACTCTGTTCA GTCAGTAGAC 300
TCTTTACCAC AAGTACGCTC TCCCTCCATT GGTACATTTG CTAGTGGCCA GATACCAAAA 360
CTGATCCAGA TAGAAAAGCC TGAAGAACTG GGAGACCAAA GGATCACCCT TCAAGAAGAT 420
GTGGAAATGA GTAATGACTC TATGAGCAAT GAGGTTACAG AATCTGATGA AAATGGGAAG 480
GAATTGGCAG AAAAGAGTTG CTCTGACATC TGCTCTCCTT CATGCAGCTC CAATGCTTTC 540
TCATTAATGA TGGCTGACAC TGAACACAAC CCATCTACTA GTGGATACAG CAGTGAACAA 600
CCAGATAAAG AGAAAACCCA GAAGGACTTG CTGAAAATGC TAAAGGAGCT ACGATCCCAT 660
CTACCACCCG ATAAGAGAAA CCGCAGCAAG TCCGGCACTG CTGCTGCACT CAAATATGCT 720
TTACACTGCA TCCAGCAAGT TCAAGCAAAT GAAGAGTACT ACCAGTTGCT GATGGTGAAT 780
GGGGAGCAAC CATGTGGCTT AGAAGCGTCG TGCTACTCAG TGCAGGAGAT TGAGAATATC 840
ACCTCGGAGT ATACCCGAAA CAACACGGAC ATGTTTGCTG TAGCAGTTTC CTTGGTTACT 900
GGAAGGATCG TTTATATTTC AGAGCAGGCT TCTGTTGTCC TGCGTTGTGG ACCAGACATG 960
TTCTCACAGA TTCGTTTTGT TGAACTAATT GCCCCACAGG ATGTCAACGT GTTTTACAGC 1020
TCAACCACAC CGTACAGATT GCCCTCCTGG AATATCTGCT GTGGAGCGGA TTCTAGTTAC 1080
GTGGATAGCA TGGAGGAAAA ATCCTTTTAC TGCCGTGTCA GCTGTGGACG GGAATCAAGA 1140
AAAGAAGTTG TGTACCACCC TTTCCGGATG ACACCTTACC TGATCTGGGT GAAGACAGAG 1200
GAGACTGCTA AGGAGCAGCT GTGTTGTGTG CTGTTTGCTG AGAGGGTTCA TTCTGGCTAT 1260
GAAGCTCCTC GAATCCCTGC TGATAAACGC ATTTTTACAA CTACTCACAC ACCAAGCTGT 1320
TTGTTCCAGG ACATAGATGA GAGGGCTGTG CCTCTTCTTG GTTACTTGCC CCAAGATCTA 1380
ATTGGAAGCT CTATTATGTT GCATCTTCAT CCCAAAGACC GACCCTTGAT GCTAGCAGTG 1440
CACAAGAAAA TTCTGCAGTA TGGGGGGCAA CCTTTTGATT TCTCTCCAAT CCGTTTCTGT 1500
GCTCGTAATG GGGAATACAT TACTATTGAT ACTAGTTGGT CCAGCTTCAT TAATCCTTGG 1560
AGTCGCAAAG TGTCCTTCAT CATTGGCCGG CATAAAGTTA GAATGGGCCC AGTCAATGAA 1620
GATGTCTTTG CTGCTCCACC ACACACTGAA GATAAATCAT TACATCCTGG AATTCAGGAG 1680
CTCACAGAAC AAATCTATCA CCTCCTTATG CAGCCTGTGC ACAACAGCAA CTCTAGTGGA 1740
TACGGCAGTT TGGGCAGCAA TGGATCCCAT GAGAATCCAA TGAGTGCGGC ATCCTCCAGC 1800
GACAGCAATG GAAATGCAAA TGAGGACATA AAGGACAAAA ATGTTGCATG CCAAGAACTT 1860
CTGGGTGAGG AGCACAGCAC TGCCTTCCAA GATAAGGAGA AGCAGAAGCT GACGAAAAAT 1920
GTGCTAATAG ATAACTCTCC CAGTACCAGG GATTATAGTA AAGATGTCAT TAAAGCCAGT 1980
CCTGACAGTG GTCCCTGCCC TATACAAAGT GAAGATCTGC CAGCAAAACA GCACCCATAT 2040
TCCTATCAGC AAATCAGCTG CCTAGACAGT GTTATCAGGT ATCTGGAGAG CTGCGGTGTG 2100
CCAACCTCCT CAAAAAGCAA GTGGGATTCT TCTGGCTATA AGGAAACTTC TTCCTCTCAC 2160
ACTGACCATA ATCCTCCGCA ACACCAAAAA GCCAAGCTTA ATAAAGTCAA ATCCTATTTA 2220
CTATCAAAGC AACATATAAG GGCATATTTA TTAATGGACT ATCCTATACA TGTTTTAACT 2280
TTGTGTTATA ATTATTGTGA TAGATGGGGC ATAATGAAAA ATGCTAAGTT CTGTGGGAAG 2340
TGTTTCATGT TACCACCTGC TGCCCCTCCA AAAACAATCC AGCTGGAGCT TTCCACCATA 2400
TCCACATGCG TAGAAACACA GGCCGAAAAT TACGATCTAC TCCAATCTGT TCCATGTTAC 2460
CAGTGCGCTG GCAGGCATGG TGTCAGCCTG TGTGTGCACA CAGCACAAGC CACTGCCTGT 2520
GTTACTTTTT GCAGCCAGGT AAGATACAAA GCATCCTTTA TACATCTGAA GGAAGTATCA 2580
CTGTTACCTG AATCAGAGAT GGAAGATTGT CCATCAGCAT TGGGGGATCC AACACCTGTA 2640
TCTGCTAGTG TGGCAGAGAA AGAGCCATAC AGACAGATGG GGCTAACCAA GGAAGTACTG 2700
GCAGCCCACA CTCAGAAAGA AGAGAATGAT TTTCTCACTG GCTTTATGGA TATCAAGAAA 2760
CTTAGTGCCT TCCAGGCCCG GTGCAACAGT TACCTGCAGG AAAGGCCAGG TGCCCCACGC 2820
ACACGCCGTG CCCAGGGACC TGATACATCC TGGAAGAGAA CTGGCAAAAC GCGAAAGCCC 2880
AAAACAAAGC GAGTGCGCCC AGAATCCTGG GACAGCAGCA GTTCCGGTGC TCACGATGCC 2940
CCTCGACACC CTCTCCCTGG TCTCAACACT ACAGCCTGGT CACAATCAGA TGCCTCACAT 3000
GCCAGCTATC CTCCACTGCC ATACCCTGTG CTTCCTGCTT ATCCCCTGCC TGTATTCCCT 3060
TCACCACAGA TTCCAGTGCC AAATGAAACT GCTCAGATTC CTTCAGCCAA TGCATCTACT 3120
CCTCAGCCTT TCCCTGCGCC ATTGCTGCCC CCTATGGTTG CCCTGGTTTT ACCTAATTAT 3180
ATGTACCCTG CCAGCCTACC AACTACTCTC TATCCAGGGC CTCCATCTCA GCCTGCATTT 3240
CCTGCCCAGC CAAACTCTTA CCTTCCTCAA TCCACTTTCC CTGCCGCACA GCCTACTTTT 3300
CCTGTTCCTG GCCCAGCATT TTCCCTACAG CAACCTAATT TTACTGTTGC ACAGCCTGTA 3360
TTTCCCACAC CACAAAATGC ATTGTCAGTT CTGCCACCTT TATATACTCC GCAGCCTGTG 3420
CAGAACCCTT TCCCAGCACA ACCTGTATCA TTCCCCATTC CTGCCCCTAC ACTAAAGACC 3480
AAAGAGGGGA TTTCTCGTTC TTCAACTCCC CAAGAACCGC CATCTCCCCC TCTTTTCCAG 3540
TCACGCTGTA GCTCTCCCTT ACAGCTTAAC TTGCTTCAGT TGGAAGAGAC CCAGAAAGTG 3600
GATCATCCCG AAGGAAACTC AGGATGCACA GATAAAGGTG GTGGAAATAG CTCTGTCTTG 3660
GTGAAACCTT CTGACGACTC TCAGCTGCAC CTCTCAAGAG CAGCATCTCC TGTAGATGCT 3720
CCAAACAGCG ATGCCATGTC AACCTGCAGT GACCTGATGG ACCTTCTTCT TCGGGAGAAT 3780
GCGTCTTCCG GAACATGTTC TGCCTCTTCT GCCATATCTG ACTCCATGAC ATCAGGATCA 3840
CATGGTAATG GTACATCTGG AAGTCAAACA GGGAGTAGTT TGACAAGCCG GAGCAGCAAG 3900
TATTTTGGAA GTGTAGATTC ATCCGAAAAC AAGGAGCATG GGGGGCAGGA GACAGGCTCT 3960
TCGAGAAGTA AAAGCATTAT GAAATATGTT CTCCAGGACC CAGTGTGGCT GCTCATGGCC 4020
AACGCAGATG AGAATGTGAT GATGACTTAC CAGATCCCAA AGAGGGACAT CAAAGCAGTC 4080
CTCGGAGAGG ACCGTAAGAA GTTAAAATCT CTCCAAAAAA TGCAGCCTCG TTTCACAGAG 4140
GAGCAGAAAA AGGAACTGGA AGAGACTCAT ACATGGATGC ACAAAGGGGG ACTGCCGCGA 4200
GTAATGGAGG TGACAGACTG TGTTTACTGC AGGAATAGAG GCCCTGAGTA TGGGGAAGCT 4260
ATCCAAGCCC TGGAGTTAAG TGGAATCATG GAGTCATGTG ATTAG 4305
Sequence Source Ensembl
Orthology
CGDB IDSpieces IdentityE-ValueScore
CGD-CaE-021686Caenorhabditis elegans24.57 6.70e-17 87.43
CGD-EqC-020992Equus caballus54.93 6.00e-166 582.4
CGD-GaG-021834Gallus gallus55.76 0.00e+00 688.3
CGD-HoS-021036Homo sapiens (Human)52.92 1.00e-172 606.3
CGD-RaN-022186Rattus norvegicus49.14 3.00e-170 597
Gene Ontology

GO:0005515--protein binding